Steel Lattice Configuration

ABSTRACT

A prefabricated wall module is disclosed. The wall module includes a series or plurality of lattices. The series of lattices includes (a) defining at least one slot accommodating a panel, and (b) defining a grid along an outer surface of the wall module wherein at least one end-standing lattice of the wall module is structurally different from one or more of the other lattices in the wall module.

FIELD OF THE INVENTION

The present invention relates to a prefabricated building module used in the construction industry.

BACKGROUND OF THE INVENTION

In the modern construction industry, the concept of prefabricated wall modules is widely used. Prefabricated wall modules make it easier to raise buildings due to the minimum of work needed at the construction site, moreover fabricating wall modules in a controlled environment allows more precise and more efficient construction.

Equally in view of more efficient construction, it has been a trend to add grids to wall modules for accommodating stucco or plaster as disclosed in EP0061100. It has now been observed when applying stucco, plaster or concrete on such wall modules comprising a grid, cracks tend to appear after a period of time. These cracks are aesthetically unacceptable and require further handling of the coating of the wall before applying a layer of paint.

Given the above, there remains a need for improving the prefabricated wall module to overcome the above inconveniences.

SUMMARY OF THE INVENTION

The present invention addresses the above inconveniences and causes.

1) A prefabricated wall module comprising a plurality of lattices, said series of lattices:

-   -   a) Defining at least one slot accommodating a panel     -   b) Defining a grid along an outer surface of said wall module

Characterised in that at least one end-standing lattice of said wall module is structurally different than one or more of the other lattices in the wall module. Surprisingly such wall does improve the quality of the stucco, plaster or concrete applied thereon.

DESCRIPTION OF THE INVENTION

In a preferred embodiment of the present invention a prefabricated wall module comprises both end-standing lattices and intermediate lattices. Wherein said end-standing lattices of said wall module do not form part of said grid.

According to the preferred embodiment of the present invention said grid comprises brace-wires connecting said series of lattices and wherein said brace-wires are bent towards the panel in proximity of at least one edge of said wall module. A coating is applied on at least part of said grid in proximity of the wall module edges. The said coating being plaster, concrete or a construction adhesive.

In addition a wafer having incisions corresponding to the grid structure is provided on the wall module, the grid being accommodated in the incisions such that the wafer is retained on the wall module.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 represents a side view of two wall modules according to the present invention

FIG. 2: Frontal view of the intermediate lattice

FIG. 3: Frontal view of the outer lattice

FIG. 4: A perspective view of a three dimensional framework

FIG. 5: A top view of two wall modules according to the present invention

FIG. 6: A perspective view of the outer lattices of two wall modules

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1 represents a side view of a wall comprising two prefabricated wall modules according to the present invention. Said wall modules comprise a three-dimensional framework with (a) a series of lattices placed one in front of the other, perpendicular to the wall surfaces and (b) a plurality of brace wires extending in a lengthwise direction of the wall module and connecting the series of lattices.

Said three-dimensional framework comprising a grid extending along the surface of the prefabricated wall module for accommodating a covering material such as stucco, plaster, concrete or construction adhesives such as epoxy, silicones and common (polymer) adhesive pastes (e.g. Knauff), which grid is defined by outer wires of the series of lattices and by said brace wires.

According to the present invention, the wall module comprises at least two types of lattices that are structurally different one from another, whereby a first type of lattice comprises an outer wire making part of said grid and second type of lattice that does not comprise an outer wire making part of the grid.

In the current embodiment, the first type of lattice as represented in FIG. 2 comprises six longitudinal wires—two outer wires 1 and four intermediate wires 2-extending parallel to the surface of the wall module and a number of transverse wires 3 extending perpendicular to said surface and welded on said longitudinal wires.

The second type of lattice as represented in FIG. 3 comprises only four parallel wires corresponding to the intermediate wires of the first type of lattice and a number of transverse wires 3 preferably corresponding to the transverse wires in the first type of lattice and welded to said longitudinal wires.

The lattice wires are preferably made out of galvanized metal and typically have a diameter of 2,2 mm. The longitudinal wires typically have a length H ranging between 2,60-3,50 m (corresponding to the height of a building floor), whereas the transversal of the first type of lattices typically have a length W1 ranging between 0,10 and 0,30 m. The second type of lattice typically has a thickness W2 (transverse wire direction) of 0,01 to 0,02 m less than the first type of lattice. It is obvious that these values are purely illustrative and may vary according to the particular requirements of the construction.

The intermediate longitudinal wires of the first type and the longitudinal wires of the second type of lattices define together with the transverse wires of the three dimensional framework one or more and in the represented embodiment, two slots for accommodating panels defining a cavity in between them for receiving a load bearing material such as concrete.

The panels are preferably light-weight panels made in an insulating material such as polyurethane foam, polystyrene, mineral wool, cork or cardboard. Clearly according to the need, other materials can be used for manufacturing said panels such as concrete; hard board (OSB, MDF); fibrous materials such as fiberglass; or of laminated materials, or mixtures of materials. In short, in specific case the material may even be non-insulating or non-metallic.

According to a preferred embodiment of the present invention as seen in in FIGS. 4 and 5, the wall module comprises lattices of the second type 5 at least one and preferably both end standing positions, i.e. at the outer transversal edges of the wall module and a series of lattices of the first type 6 in between the two end standing positions. As such two zones are defined along the wall module wherein the grid for accommodating stucco or plaster only comprises the brace wires 4, in which zones the brace-wires are bent towards the wall module panels joining the outer most longitudinal wires of the lattice of the second type.

When erecting a wall or building with wall modules according to the present invention, adjacent wall modules in said wall are positioned to face each other as seen in FIG. 6 such that at the interface of both modules, at least on of end-standing lattices of both modules is a lattice of the second type 5-6. Once the prefabricated wall modules are positioned correctly, a load bearing material is poured in the cavity between both panels to form a load-bearing wall. Once dried, a covering material such as stucco, plaster, concrete or even façade panels can be applied on the grid of the wall modules for finishing.

Additionally an insulation wafer consisting of light-weight panels made from polystyrene, polyurethane or any other material that has insulating properties and/or has fire retarding properties can be applied on the grid. These insulation panels are provided with incisions that correspond with the grid of the wall module. By this the wafer can be easily attached to the wall by pushing the wafer against the wall module such that the grid is accommodated tightly into the incisions of the wafer, such that the wafer is retained on the grid without the need for any other mechanical or chemical connection means than the retention of the grid in the incisions.

When positioning the wall modules as described above, the grids defined along both wall modules have a lower wire density in the interface zone A than in case both wall modules would have comprised lattices of the first type in the end-standing positions. Surprisingly, using wall modules according to the present invention allows improving stucco, plaster and concrete finishing quality in the interface zone A, than walls comprising only lattices of the first type. 

1. A prefabricated wall module comprising a series or plurality of lattices, said series of lattices: Defining at least one slot accommodating a panel; and Defining a grid along an outer surface of said wall module wherein at least one end-standing lattice of said wall module is structurally different from one or more of the other lattices in the wall module.
 2. The prefabricated wall module according to claim 1, both end-standing lattices of said wall module are structurally different.
 3. The prefabricated wall module according to claim 1, wherein said end-standing lattice of said wall module does not form part of said grid.
 4. The prefabricated wall module according to claim 1, wherein said grid comprises brace-wires connecting said series of lattices and wherein said brace-wires are bent towards the panel in proximity of at least one edge of said wall module.
 5. The prefabricated wall module according to claim 4, wherein a coating is applied on at least part of said grid in proximity of the wall module edges.
 6. The prefabricated wall module according to claim 5, wherein said coating is stucco, plaster, concrete or a construction adhesive.
 7. The prefabricated wall module according to claim 4, wherein a wafer having incisions therein corresponding to the grid structure is provided on the wall module, the grid being accommodated in the incisions such that the wafer is retained on the wall module.
 8. A wall comprising at least two prefabricated wall modules, one of which is a wall module as identified in claim
 6. 9. The prefabricated wall module according to claim 2, wherein a coating is applied on at least part of said grid in proximity of the wall module edges.
 10. The prefabricated wall module according to claim 9, wherein said coating is stucco, plaster, concrete or a construction adhesive.
 11. The prefabricated wall module according to claim 1, wherein a wafer having incisions therein corresponding to the grid structure is provided on the wall module, the grid being accommodated in the incisions such that the wafer is retained on the wall module.
 12. A wall comprising at least two prefabricated wall modules, one of which is a wall module as identified in claim
 10. 13. A wall comprising at least two prefabricated wall modules, one of which is a wall module as identified in claim
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